A solution contains 11.45 g of unknown compound dissolved in 50.0 mL of water. (Assume a...

Analysis of a non-electrolyte, unknown compound, X, reveals that it contains 32.3 percent by mass C,...

Analysis of a non-electrolyte, unknown compound, X, reveals that it contains 32.3 percent by mass C, 3.97 percent by mass H, and the balance is O. An aqueous solution of the unknown compound is prepared by dissolving 1.142 g of X in 11.230 g water and has a freezing point of -1.26oC. What is the molecular formula of the X?

A 21.01 g sample of unknown compound is dissolved in 5.00 mL of water. The boiling...

A 21.01 g sample of unknown compound is dissolved in 5.00 mL of water. The boiling point of the solution is 110.44 oC. If the compound is a non-electrolyte, what is the molar mass of the compound? kb(water) = 0.512 oC/m

An aqueous solution containing 36.2 g of an unknown molecular (non-electrolyte) compound in 152.4 g of...

An aqueous solution containing 36.2 g of an unknown molecular (non-electrolyte) compound in 152.4 g of water was found to have a freezing point of -1.4 ∘C. Calculate the molar mass of the unknown compound. Express your answer using two significant figures.

a) When 1.13 g of an unknown non-electrolyte is dissolved in 50.0 g of carbon tetrachloride,...

a) When 1.13 g of an unknown non-electrolyte is dissolved in 50.0 g of carbon tetrachloride, the freezing point decreased by 5.46 degrees C. If the Kfp of the solvent is 29.8 K/m, calculate the molar mass of the unknown solute. b) How many moles of solute particles are present in 4.78 mL of 0.304 M (NH4)2SO4? c) A 0.97 mass % aqueous solution of urea (CO(NH2)2) has a density of 1.12 g/mL. Calculate the molarity of the solution. Give...

An aqueous solution containing 34.9 g of an unknown molecular (nonelectrolyte) compound in 130.0 g of...

An aqueous solution containing 34.9 g of an unknown molecular (nonelectrolyte) compound in 130.0 g of water has a freezing point of -1.4 ∘C. Calculate the molar mass of the unknown compound.

An aqueous solution containing 35.0 g of an unknown molecular (non-electrolyte) compound in 156.9 g of...

An aqueous solution containing 35.0 g of an unknown molecular (non-electrolyte) compound in 156.9 g of water was found to have a freezing point of -1.2 ∘C. Calculate the molar mass of the unknown compound. Calculate the molar mass of the unknown compound.

An aqueous solution containing 36.2 g of an unknown molecular (non-electrolyte) compound in 146.1 g of...

An aqueous solution containing 36.2 g of an unknown molecular (non-electrolyte) compound in 146.1 g of water was found to have a freezing point of -1.2 ∘C. Calculate the molar mass of the unknown compound.

When 1.00 g of a pheromone is dissolved in 8.50g of C6H6, a freezing point of...

When 1.00 g of a pheromone is dissolved in 8.50g of C6H6, a freezing point of 3.37 C is observed. What is the pheromone’s molecular weight? The freezing point depression constant of C6H6 are 5.5 C and 5.12 c/m.    The percentage composition of this pheromone is 80.78% C, 13.56 H, 5.66% O. What is its empirical formula and molecular formula.

An unknown amount of a compound with a molecular mass of 259.61 g/mol is dissolved in...

An unknown amount of a compound with a molecular mass of 259.61 g/mol is dissolved in a 10-mL volumetric flask. A 1.00-mL aliquot of this solution is transferred to a 25-mL volumetric flask and enough water is added to dilute to the mark. The absorbance of this diluted solution at 347 nm is 0.525 in a 1.000-cm cuvette. The molar absorptivity for this compound at 347 nm is ε347 = 6557 M–1 cm–1. (a) What is the concentration of the...

When 10.0 g of an organic compound known to be 54.53% C, 9.15% H, and 36.32%...

When 10.0 g of an organic compound known to be 54.53% C, 9.15% H, and 36.32% O by mass is dissolved in 953.6 g of benzene, the freezing point is 5.08 °C. The normal freezing point of benzene is 5.49 °C. What is the molecular formula for the organic compound? Assume that the organic compound is a molecular solid and does not ionize in water. Kf values for various solvents are given here.